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Foundations of Forest Wildlife Habitat Management Habitat through Disturbance and Silviculture
Guest Lecturer: Dr. Brenda McComb, Oregon State University.
Series Description The Forest Ecology Working Group (FEWG) and NCTC are pleased to offer this 5-part focused lecture series to introduce fundamental principles of forest habitat management. Please contact Jeff_horan@fws.govif you want more information about FEWG or this webinar series.
July 14 - Habitat Selection by Forest-Associated Species: Abiotic factors
July 28 - Saving all the Pieces: Forest structure and Composition
August 11 - Forest Disturbance and Stand Dynamics
August 25 - Silviculture as a Forest Disturbance
September 15 - Habitat Considerations: Dead wood and Riparian Areas
Foundations of Forest Wildlife Habitat Management:
Habitat Through Disturbance and Silviculture
Week 1: Introduction and Habitat Selection by Forest Associated Species: Abiotic Factors
https://prism.oregonstate.edu/
Photo by Hankyu Kim
Objectives of this Lecture Series
• Provide foundational information to find a common ground when approaching management of forests for multiple values.
• Use disturbance ecology as a foundational framework for active stand management
• Introduce management stands to achieve desired habitat conditions for selected species or conservation of biological diversity
Information provided is a component of:NCTC Course: “Forest Ecology and Management”FW/FES 552: “Forest Wildlife Habitat Management” (OSU)
Lecture Schedule
Background
Disturbance Ecology and Stand dynamics
ManagementOf
Stands
Principles of forest habitat ecology, habitat function, and habitat selection; introduce abiotic & biotic factors (Lectures 1 & 2)
Disturbances and stressors that influence forest structure, composition, and function as habitat for selected species (Lecture 3)
Applying silvicultural approaches to achieve habitat objectives (Lectures 4 & 5)
Conceptual FrameworkActive management with a forest products focus
Active management with habitat or multiple products focus
Passive management to allow natural disturbances to achieve goals
Value of Forests
• Forests managed primarily for forest products provide habitat for many species.
• Forests managed to consider habitat structure and function can support a wide variety of species with forest products as one outcome
Saving all the pieces• “The first rule of intelligent tinkering is to save all the
pieces” (Aldo Leopold)• What are the pieces?
Habitat elements:Those parts of the environmentimportant to a species whenpresent in the correct sizes, amounts and distributions
Defining Goals: Species, wildlife, biodiversity?
• Manage for a species such as deer, woodpeckers, owls, snakes, wood ducks, etc. –which of the 1.7 million described species would you like?
• Manage for a group of species such as game, songbirds, native fish, etc.
• Manage to conserve biodiversity (both known and unknown): genetic representation, populations, ecosystems
We have information to manage forests• We understand plant dynamics, disturbance
ecology, habitat selection, and population dynamics.
• We can develop reasonable stand and forest management plans
• Need to monitor the effectiveness of the plans
Meeting habitat goals with increasing demands on natural resources on a decreasing available
land base.
https://www.nasa.gov/sites/default/files/forest-cover-global.png?itok=SzC6ccIf
The Biggest Challenge
Questions?
Photo by Hankyu Kim
Habitat Selection by Vertebrates
Habitat is defined as the resources necessary to support a
population over space and through time
Learning outcomes for this lecture
• Identify levels of selection for a species of vertebrate
• Understand limitations of studies designed to detect habitat selection
• Recognize the importance of fitness as a response variable when detecting habitat selection
Food – Energy input
Cover provides a mechanism for conserving energy
Energy Conservation = closer to the TNZ for endotherms
Question: how does this concept relate to ectotherms?
Cover• And escape from predators• And a place to nest or den
Water• Essential but highly
variable from species to species
Habitat SelectionLevels of Habitat Selection
• First order selection = occurrence within a geographic range “where in the world the species occurs”
• Establishment of subpopulations within the geographic range
• Second-order selection = establishment of a home range “the area used to acquire resources”
• Third order selection = use of resource patches within the home range where resources are found
• Fourth order selection = use of specific food and cover resources acquired in the resource patches.
Scales of Habitat SelectionSpace Time
Define the levels within scales of disturbance?
Johnson, D.H. 1980. The Comparison of Usage and Availability Measurements for Evaluating Resource Preference Ecology 61: 65-71
McGarigal et al. 2016. Multi-scale habitat selection modeling: a review and outlook . Landscape Ecology.
Hierarchical Levels of Habitat Selection
Johnson, D.H. 1980. The Comparison of Usage and Availability Measurements for Evaluating Resource Preference Ecology 61: 65-71
Metapopulation Structure
https://www.fs.fed.us/pnw/olympia/wet/team-research/owl-res/index.shtml
https://seaspout.files.wordpress.com/2011/08/source_sink.gif
Habitat Structure and Composition • Animals often use
proximal cues to select habitat that can provide ultimate resources
• Ultimate resources = food, cover, water
https://www.fs.usda.gov/detail/okawen/landmanagement/?cid=STELPRDB5319349
We tend to think of structure and composition as visual proximate cues to ultimate resources, but is that too anthropocentric?
Aural social cues – Betts et al. & black-throated blue warblersOlfactory cues – Scent marking by mammalsTactile? – Soil compaction?Other?Betts et al. 2008. Social information trumps vegetation structure in breeding-site selection by a migrant songbird. Proc. R. Soc. B 275:2257–2263
Assessing habitat use• An example of classic habitat selection
research using radio telemetry:• Potvin et al. 2000. Marten Habitat Selection in a Clearcut
Boreal Landscape. Conservation Biology 14: 844–857. • “…Regenerating stands (<20 years), mostly 1992–1994
clearcuts, are white.”
• What does this tell us about selection?• What level of selection is addressed?• What spatial scale is addressed?• What information is needed to assess
habitat preference?• What information is needed to assess
habitat quality?
Photo by Mike Jones
Figure from Potvin et al. 2000
Habitat Quality = Animal fitness
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Ideal Free Distribution Ideal Despotic Distribution
13 2613
Territoriality influencesdistribution and fitness
More animals in better habitat
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Is density auseful index of habitat quality?
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What demographic parameters do we need to know to understand fitness?
• Survival• Reproduction• Movement
Questions?
Photo by Mike Jones
Abiotic factors influencing habitat elements
• Limits on habitat elements and organism physiology
• Drives distribution of potential vegetation
• Provides the template for biotic interactions
• Influences tree occurrence and tree growth
Kuchler, A.W. 1964. Potential Natural Vegetation of the Conterminous United States, American Geographical Society, Special Publication No. 36.
• Geology• Topography• Soils• Climate
Abiotic factors influencing production of habitat elements
Learning Outcomes
• Identify the key abiotic factors influencing forest species composition and structure on a site
• Understand how the site can limit the ability to achieve habitat goals
Geology
http://geology.er.usgs.gov/egpsc/graphics/06_karst_studies_weary.jpg
Soils• Texture
• Depth
• pH
• Micronutrients (e.g., Serpentine)
• Moisture (hydric, xeric, mesic)
https://www.nrcs.usda.gov/wps/portal/nrcs/detail/soils/survey/?cid=nrcs142p2_054167
Site quality• Site index=Height of the
dominant and co-dominant trees at a specified age
• Tree presence, and growth rates are a function of available sunlight, moisture, nutrients, in addition to competition
• Why tree height? https://www.nrs.fs.fed.us/fmg/nfmg/rp/silv/sitequality/p2_siteindex.html
SoilsFind a soil survey for your areahttps://websoilsurvey.sc.egov.usda.gov/App/HomePage.htm
Changes over Space: Topography
http://www.fsl.orst.edu/clams/map_index.html#elevation http://www.fsl.orst.edu/clams/map_index.html#ecoregions
https://catalog.data.gov/dataset/usgs-national-elevation-dataset-ned-1-meter-downloadable-data-collection-from-the-national-map-
Elevation and Latitude Effects
Holdridge Life Zoneshttps://commons.wikimedia.org/wiki/File:Lifezones_Pengo,_FAO.svg
Moisture gradients
https://www.srs.fs.usda.gov/pubs/misc/ag_654/table_of_contents.htm
Climate EffectsTemperature and precipitation can limit the distribution of some species.
http://www.fsl.orst.edu/clams/map_index.html#climate
https://www.na.fs.fed.us/spfo/pubs/silvics_manual/volume_1/silvics_vol1.pdf
Source: WikiMedia Common: from Farm Services Administration (1942) Public Domain
Long term trends in temperature, precipitation and vapor pressure deficit
https://en.wikipedia.org/wiki/Benton_County,_Oregon
https://prism.oregonstate.edu/
Below canopy trends in temperature and birds
Photos by Hankyu Kim
Frey, S. J. K. et al. 2016. Spatial models reveal the microclimatic buffering capacity of old-growth forests. – Sci. Adv. 2: e1501392.
Projecting climate change effects forward in time (G. Reeves Presentation to the Oregon Board of Forestry, June 3, 2020).
Vegetation patterns will likely continue to change
“…many invasive species share traits that will allow them to capitalize on the various elements of global change. Increases in the prevalence of some of these biological invaders would alter basic ecosystem properties in ways that feed back to affect many components of global change...”(Dukes and Mooney 2000)
http://news.berkeley.edu/2010/06/04/climate/
Forest Types
https://data.fs.usda.gov/geodata/rastergateway/forest_type/conus_forest_type_metadata.php
https://19january2017snapshot.epa.gov/climate-impacts/climate-impacts-forests_.html
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http://www.pnas.org/content/104/14/5738/F2.large.jpg
“There is a close correspondence between regions with globally disappearing climates and previously identified biodiversity hotspots; for these regions, standard conservation solutions (e.g., assisted migration and networked reserves) may be insufficient to preserve biodiversity.”(Williams et al. 2007) http://www.pnas.org/content/104/14/5738.abstract
Climates will disappear and new ones will develop
Site limitations to providing habitat elements
• Is the site capable of meeting your objectives for a stand?• What is the capability of the soil to grow trees of desired species?
Shrubs? Herbaceous plants? • Is soil moisture adequate during the growing season?• How might slope or aspect influence growth and survival of desired
species?• What are the climatic limits to growth and survival of the desired
species?• How might climate change influence growth and survival of the desired
species?
Questions?
To contact me directly:
Brenda.mccomb@oregonstate.edu
For questions, comments and ongoing discussions to the group for all 5 Forest Wildlife Habitat Management webinars:
forestwildlifehabitatseminars@doimspp.onmicrosoft.com
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